/* * @(#)GraphImpl.java 1.5 03/12/19 * * Copyright 2004 Sun Microsystems, Inc. All rights reserved. * SUN PROPRIETARY/CONFIDENTIAL. Use is subject to license terms. */ package com.sun.corba.se.impl.orbutil.graph ; import java.util.Collection ; import java.util.AbstractSet ; import java.util.Iterator ; import java.util.Map ; import java.util.HashMap ; import java.util.Set ; import java.util.HashSet ; public class GraphImpl extends AbstractSet implements Graph { private Map /* Map */ nodeToData ; public GraphImpl() { nodeToData = new HashMap() ; } public GraphImpl( Collection coll ) { this() ; addAll( coll ) ; } /***********************************************************************************/ /************ AbstractSet implementation *******************************************/ /***********************************************************************************/ // Required for AbstractSet public boolean add( Object obj ) // obj must be a Node { if (!(obj instanceof Node)) throw new IllegalArgumentException( "Graphs must contain only Node instances" ) ; Node node = (Node)obj ; boolean found = nodeToData.keySet().contains( obj ) ; if (!found) { NodeData nd = new NodeData() ; nodeToData.put( node, nd ) ; } return !found ; } // Required for AbstractSet public Iterator iterator() { return nodeToData.keySet().iterator() ; } // Required for AbstractSet public int size() { return nodeToData.keySet().size() ; } /***********************************************************************************/ public NodeData getNodeData( Node node ) { return (NodeData)nodeToData.get( node ) ; } private void clearNodeData() { // Clear every node Iterator iter = nodeToData.entrySet().iterator() ; while (iter.hasNext()) { Map.Entry entry = (Map.Entry)iter.next() ; NodeData nd = (NodeData)(entry.getValue()) ; nd.clear( ) ; } } interface NodeVisitor { void visit( Graph graph, Node node, NodeData nd ) ; } // This visits every node in the graph exactly once. A // visitor is allowed to modify the graph during the // traversal. void visitAll( NodeVisitor nv ) { boolean done = false ; // Repeat the traversal until every node has been visited. Since // it takes one pass to determine whether or not each node has // already been visited, this loop always runs at least once. do { done = true ; // Copy entries to array to avoid concurrent modification // problem with iterator if the visitor is updating the graph. Map.Entry[] entries = (Map.Entry[])nodeToData.entrySet().toArray( new Map.Entry[0] ) ; // Visit each node in the graph that has not already been visited. // If any node is visited in this pass, we must run at least one more // pass. for (int ctr=0; ctr while (iter.hasNext()) { Node child = (Node)iter.next() ; // Make sure the child is in the graph so it can be // visited later if necessary. graph.add( child ) ; // Mark the child as a non-root, since a child is never a root. NodeData cnd = graph.getNodeData( child ) ; cnd.notRoot() ; } } } ) ; } private Set collectRootSet() { final Set result = new HashSet() ; Iterator iter = nodeToData.entrySet().iterator() ; while (iter.hasNext()) { Map.Entry entry = (Map.Entry)iter.next() ; Node node = (Node)entry.getKey() ; NodeData nd = (NodeData)entry.getValue() ; if (nd.isRoot()) result.add( node ) ; } return result ; } public Set /* Set */ getRoots() { clearNodeData() ; markNonRoots() ; return collectRootSet() ; } }